Overview
The NVTA7002NT1G is a single N-Channel small signal MOSFET produced by onsemi. This component is designed for applications requiring low gate charge and fast switching capabilities. Although it is no longer in production, it remains a viable option for existing designs and inventory management. The MOSFET is packaged in a SC-75 package, making it suitable for a variety of electronic circuits where space is a concern.
Key Specifications
| Parameter | Value |
|---|---|
| Channel Type | N-Channel |
| Drain to Source Voltage (Vdss) | 30 V |
| Continuous Drain Current (Id) @ 25°C | 154 mA |
| Maximum Operating Temperature | +150°C |
| Power Dissipation (Pd) | 300 mW |
| Qualification | AEC-Q100 |
Key Features
- Low gate charge for fast switching
- Gate ESD protection
- Small signal MOSFET in SC-75 package
- Enhancement mode operation
- High maximum operating temperature of +150°C
Applications
The NVTA7002NT1G is suitable for a range of applications including but not limited to:
- Automotive systems requiring AEC-Q100 qualification
- Small signal switching circuits
- Low power electronic devices
- Industrial control systems
Q & A
- What is the maximum drain to source voltage of the NVTA7002NT1G?
The maximum drain to source voltage is 30 V. - What is the continuous drain current at 25°C?
The continuous drain current at 25°C is 154 mA. - What is the maximum operating temperature of the NVTA7002NT1G?
The maximum operating temperature is +150°C. - Is the NVTA7002NT1G still in production?
No, the NVTA7002NT1G is no longer being manufactured. - What is the package type of the NVTA7002NT1G?
The package type is SC-75. - What is the power dissipation of the NVTA7002NT1G?
The power dissipation is 300 mW. - Does the NVTA7002NT1G have gate ESD protection?
Yes, it has gate ESD protection. - What is the qualification standard for the NVTA7002NT1G?
The qualification standard is AEC-Q100. - What are some typical applications for the NVTA7002NT1G?
Typical applications include automotive systems, small signal switching circuits, low power electronic devices, and industrial control systems. - Why is low gate charge important in the NVTA7002NT1G?
Low gate charge is important for fast switching capabilities in the MOSFET.
